Recent Advances on Plasmon-enhanced Titania Nanocatalysts for Photocatalytic Degradation of Organic Dyes

Abstract: In the past several years, solar-driven photocatalytic degradation of organic dyes has been considered as one of the most promising and effective ways to address water pollution issues. Nevertheless, the implementation of such technology for large scale industrial wastewater application is still hampered by the limitation in currently used photocatalysts. Recently, plasmon-enhanced titania-based nanocatalyst has emerged as one of the promising photocatalytic materials for solar-driven wastewater treatment due … Show more

“…Also, the Advanced Oxidative Process (AOP) method, known as the photocatalytic degradation, is employed and a semiconductor is used to degrade the dye compounds. In addition, the AOP consist of reusable catalyst, low energy and cost, and the use of sunlight at low band gap energy catalyst as a source of irradiation [4] [5].…”

Photocatalytic Activity and Kinetic Study of Methylene Blue Degradation using N-Doped TiO2 with Zeolite-NaY

“…Also, the Advanced Oxidative Process (AOP) method, known as the photocatalytic degradation, is employed and a semiconductor is used to degrade the dye compounds. In addition, the AOP consist of reusable catalyst, low energy and cost, and the use of sunlight at low band gap energy catalyst as a source of irradiation [4] [5].…”

Photocatalytic Activity and Kinetic Study of Methylene Blue Degradation using N-Doped TiO2 with Zeolite-NaY

Interface engineering of a magnetic 2D-C3N4/Fe2O3/NiFe-LDH heterostructure for efficient photocatalytic degradation of methylene blue and rhodamine B dyes under visible light

Bifunctional quaternary magnetic composite as efficient heterojunctions photocatalyst for simultaneous photocatalytic visible light degradation of dye and herbicide pollutants from water and bacterial disinfection